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Abstract
This
article describes the optical properties of nanostructures composed of silver
particles embedded into a gold matrix. In previous studies these materials were
shown to exhibit temperature dependent transitions to a highly conductive and
strongly diamagnetic state. Here we describe the anomalous optical properties
of these nanostructures. Most notably, these materials fail to obey Mie theory
and exhibit an unconventional resonance with a maximum at about 4 eV, while the
usual gold and silver localized surface plasmon resonances are suppressed. This
effect implies a significant deviation from the bulk dielectric functions of gold
and silver. We further resolved this resonance into its absorbance and
scattering sub-parts. It is observed that the resonance is largely comprised of
scattering, with negligible losses even at ultraviolet frequencies.
